/** @file HL_eqep.c 
*   @brief EQEP Driver Source File
*   @date 07-July-2017
*   @version 04.07.00
*
*   This file contains:
*   - API Functions
*   - Interrupt Handlers
*   .
*   which are relevant for the EQEP driver.
*/

/* 
* Copyright (C) 2009-2016 Texas Instruments Incorporated - www.ti.com  
* 
* 
*  Redistribution and use in source and binary forms, with or without 
*  modification, are permitted provided that the following conditions 
*  are met:
*
*    Redistributions of source code must retain the above copyright 
*    notice, this list of conditions and the following disclaimer.
*
*    Redistributions in binary form must reproduce the above copyright
*    notice, this list of conditions and the following disclaimer in the 
*    documentation and/or other materials provided with the   
*    distribution.
*
*    Neither the name of Texas Instruments Incorporated nor the names of
*    its contributors may be used to endorse or promote products derived
*    from this software without specific prior written permission.
*
*  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 
*  "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 
*  LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
*  A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 
*  OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 
*  SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 
*  LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
*  DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
*  THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 
*  (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 
*  OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/



#include "HL_eqep.h"
#include "HL_sys_vim.h"

/*the functions
*/

/* USER CODE BEGIN (0) */
/* USER CODE END */

/** @fn void QEPInit(void)
*   @brief Initializes the eQEP Driver
*
*   This function initializes the eQEP module.
*/
/* SourceId : EQEP_SourceId_001 */
/* DesignId : EQEP_DesignId_001 */
/* Requirements : HL_CONQ_QEP_SR1 */
void QEPInit(void)
{


/* USER CODE BEGIN (1) */
/* USER CODE END */

  /** - Clear Position Counter register   */
  eqepREG1->QPOSCNT  =  0x00000000U;
  
  /** - Initialize Position Counter value register   */ 
  eqepREG1->QPOSINIT =  0x00000000U;
  
  /** - Set Maximum position counter value   */ 
  eqepREG1->QPOSMAX  =  0x00000000U;
  
  /** - Set the initial Position compare value   */ 
  eqepREG1->QPOSCMP  =  0x00000000U;
  
  /** - Clear the time base   */ 
  eqepREG1->QUTMR    =  0x00000000U;
  
  /** - Configure unit period register   */ 
  eqepREG1->QUPRD    =  (uint32) 0x00000000U;
  
  /** - Clear Watchdog Timer register  */ 
  eqepREG1->QWDTMR   = 	(uint16) 0x00000000U;
  
  /** - Configure Watchdog Period   */ 
  eqepREG1->QWDPRD   =  (uint16) 0x0000U;
  
/* USER CODE BEGIN (2) */
/* USER CODE END */

  /** - Setup Decoder Control Register
  *     - Select Position counter Mode
  *     - Enable / Disable Sync Output
  *     - Select Sync Output Pin  
  *     - Select external Clock rate ( resolution)
  *     - Enable / Disable Swap Quadrature clock input
  *     - Enable / Disable Gating of index pulse with Strobe.
  *     - Enable / Disable Negate QEPA input
  *     - Enable / Disable Negate QEPB input
  *     - Enable / Disable Negate QEPI input
  *     - Enable / Disable Negate QEPS input  
  */
  eqepREG1->QDECCTL  = (uint16)((uint16)((uint16)eQEP_DIRECTION_COUNT << 14U)
                       | (uint16)((uint16)0U << 13U) 
					   | (uint16)((uint16)eQEP_INDEX_PIN << 12U) 
					   | (uint16)((uint16)eQEP_RESOLUTION_1x << 11U)
					   | (uint16)((uint16)0U << 10U)
					   | (uint16)((uint16)0U << 9U)
					   | (uint16)((uint16)0U << 8U)
					   | (uint16)((uint16)0U << 7U)					   
					   | (uint16)((uint16)0U << 6U)				   
					   | (uint16)((uint16)0U << 5U)
					   | (uint16)0x0000U);

  /** - Setup eQEP Control Register
  *     - Select Position counter Reset Mode
  *     - Enable & Select Stobe event initialization of position counter
  *     - Enable & Select Index event initialization of position counter
  *     - Enable / Disable Software Initialization of Position counter.
  *     - Select Strobe event latch of position counter.
  *     - Select Index event latch of position counter.
  *     - Select EQEP capture Latch mode
  */				   
  eqepREG1->QEPCTL   = (uint16)((uint16)((uint16)eQEP_MAX_POSITION << 12U)
                       | (uint16)((uint16)0U << 11U )
					   | (uint16)((uint16)eQEP_DIRECTON_DEPENDENT << 10U)
                       | (uint16)((uint16)0U << 9U)
					   | (uint16)((uint16)eQEP_RISING_EDGE << 8U)
					   | (uint16)((uint16)0U << 7U)
					   | (uint16)((uint16)eQEP_RISING_EDGE << 6U)
					   | (uint16)((uint16)eQEP_LATCH_RISING_EDGE << 4U)
					   | (uint16)((uint16)eQEP_ON_POSITION_COUNTER_READ << 2U)
					   | (uint16)0x0000U);
					   
  /** - Setup eQEP Position Control Register
  *     - Enable / Disable Position compare shadow.
  *     - Select Position compare shadow load mode.
  *     - Select Polarity of Sync output.
  *     - Select Position compare sync output pulse width.
  */			   
  eqepREG1->QPOSCTL  = (uint16)((uint16)((uint16)0U << 15U)
					   | (uint16)((uint16)eQEP_QPOSCNT_EQ_QPSCMP << 14U)
					   | (uint16)((uint16)eQEP_ACTIVE_HIGH << 13U)
					   | (uint16)((uint16)0x000U)					   
					   | (uint16)0x0000U);

  /** - Setup eQEP Capture Control Register
  *     - Select capture timer clock prescaler.
  *     - Select Unit position event prescaler.
  */					   
  eqepREG1->QCAPCTL  = (uint16)((uint16)((uint16)eQEP_PS_8 << 4U)
					   | (uint16)((uint16)eQEP_PS_512)
					   | (uint16)0x0000U);

/* USER CODE BEGIN (3) */
/* USER CODE END */

  /** - Clear Interrupt Flag register  */					   
  eqepREG1->QCLR     = (uint16) 0xFFFFU;

  /** - Setup eQEP Interrupt Enable Register
  *     Enable / Diable UTO Interrupt
  *     Enable / Diable IEL Interrupt
  *     Enable / Diable SEL Interrupt
  *     Enable / Diable PCM Interrupt 
  *     Enable / Diable PCR Interrupt
  *     Enable / Diable PCO Interrupt
  *     Enable / Diable PCU Interrupt
  *     Enable / Diable WTO Interrupt 
  *     Enable / Diable QDC Interrupt
  *     Enable / Diable QPE Interrupt
  *     Enable / Diable PCE Interrupt
  */  
  eqepREG1->QEINT    = (uint16)((uint16)((uint16)0U << 11U)
					   | (uint16)((uint16)0U << 10U)
					   | (uint16)((uint16)0U << 9U)
					   | (uint16)((uint16)0U << 8U)
					   | (uint16)((uint16)0U << 7U)
					   | (uint16)((uint16)0U << 6U)
					   | (uint16)((uint16)0U << 5U)
					   | (uint16)((uint16)0U << 4U)
					   | (uint16)((uint16)0U << 3U)       
					   | (uint16)((uint16)0U << 2U)
					   | (uint16)((uint16)0U << 1U));

  /** - Clear Capture Timer register  */
  eqepREG1->QCTMR    = (uint16)0x0000U;	

  /** - Clear the Capture Period regiter */  
  eqepREG1->QCPRD    = (uint16)0x0000U;	
  
  /** - Clear Period Latch register */					   
  eqepREG1->QCPRDLAT = (uint16)0x0000U;
  

/* USER CODE BEGIN (4) */
/* USER CODE END */


  /** - Clear Position Counter register   */
  eqepREG2->QPOSCNT  =  0x00000000U;
  
  /** - Initialize Position Counter value register   */ 
  eqepREG2->QPOSINIT =  0x00000000U;
  
  /** - Set Maximum position counter value   */ 
  eqepREG2->QPOSMAX  =  0x00000000U;
  
  /** - Set the initial Position compare value   */ 
  eqepREG2->QPOSCMP  =  0U;
  
  /** - Clear the time base   */ 
  eqepREG2->QUTMR    =  0x00000000U;
  
  /** - Configure unit period register   */ 
  eqepREG2->QUPRD    =  (uint32) 0U;
  
  /** - Clear Watchdog Timer register  */ 
  eqepREG2->QWDTMR   = 	(uint16) 0x00000000U;
  
  /** - Configure Watchdog Period   */ 
  eqepREG2->QWDPRD   =  (uint16) 0U;
  
/* USER CODE BEGIN (5) */
/* USER CODE END */

  /** - Setup Decoder Control Register
  *     - Select Position counter Mode
  *     - Enable / Disable Sync Output
  *     - Select Sync Output Pin  
  *     - Select external Clock rate ( resolution)
  *     - Enable / Disable Swap Quadrature clock input
  *     - Enable / Disable Gating of index pulse with Strobe.
  *     - Enable / Disable Negate QEPA input
  *     - Enable / Disable Negate QEPB input
  *     - Enable / Disable Negate QEPI input
  *     - Enable / Disable Negate QEPS input  
  */
  eqepREG2->QDECCTL  = (uint16)((uint16)((uint16)eQEP_DIRECTION_COUNT << 14U)
                       | (uint16)((uint16)0U << 13U) 
					   | (uint16)((uint16)eQEP_INDEX_PIN << 12U) 
					   | (uint16)((uint16)eQEP_RESOLUTION_1x << 11U)
					   | (uint16)((uint16)0U << 10U)
					   | (uint16)((uint16)0U << 9U)
					   | (uint16)((uint16)0U << 8U)
					   | (uint16)((uint16)0U << 7U)					   
					   | (uint16)((uint16)0U << 6U)					   
					   | (uint16)((uint16)0U << 5U)
					   | (uint16)0x0000U);

  /** - Setup eQEP Control Register
  *     - Select Position counter Reset Mode
  *     - Enable & Select Strobe event initialization of position counter
  *     - Enable & Select Index event initialization of position counter
  *     - Enable / Disable Software Initialization of Position counter.
  *     - Select Strobe event latch of position counter.
  *     - Select Index event latch of position counter.
  *     - Select EQEP capture Latch mode
  */				   
  eqepREG2->QEPCTL   = (uint16)((uint16)((uint16)eQEP_MAX_POSITION << 12U)
                       | (uint16)((uint16)0U << 11U) 
					   | (uint16)((uint16)eQEP_DIRECTON_DEPENDENT << 10U)
                       | (uint16)((uint16)0U << 9U)
					   | (uint16)((uint16)eQEP_RISING_EDGE << 8U)
					   | (uint16)((uint16)0U << 7U)
					   | (uint16)((uint16)eQEP_RISING_EDGE << 6U)
					   | (uint16)((uint16)eQEP_LATCH_RISING_EDGE << 4U)
					   | (uint16)((uint16)eQEP_ON_POSITION_COUNTER_READ << 2U)
					   | (uint16)0x0000U);
					   
  /** - Setup eQEP Position Control Register
  *     - Enable / Disable Position compare shadow.
  *     - Select Position compare shadow load mode.
  *     - Select Polarity of Sync output.
  *     - Select Position compare sync output pulse width.
  */			   
  eqepREG2->QPOSCTL  = (uint16)((uint16)((uint16)0U << 15U)
					   | (uint16)((uint16)eQEP_QPOSCNT_EQ_QPSCMP << 14U)
					   | (uint16)((uint16)eQEP_ACTIVE_HIGH << 13U)
					   | (uint16)((uint16)0U)					   
					   | (uint16)0x0000U);

  /** - Setup eQEP Capture Control Register
  *     - Select capture timer clock prescaler.
  *     - Select Unit position event prescaler.
  */					   
  eqepREG2->QCAPCTL  = (uint16)((uint16)((uint16)eQEP_PS_8 << 4U)
					   | (uint16)((uint16)eQEP_PS_512)
					   | (uint16)0x0000U);

/* USER CODE BEGIN (6) */
/* USER CODE END */

  /** - Clear Interrupt Flag register  */					   
  eqepREG2->QCLR     = (uint16) 0xFFFFU;

  /** - Setup eQEP Interrupt Enable Register
  *     Enable / Diable UTO Interrupt
  *     Enable / Diable IEL Interrupt
  *     Enable / Diable SEL Interrupt
  *     Enable / Diable PCM Interrupt 
  *     Enable / Diable PCR Interrupt
  *     Enable / Diable PCO Interrupt
  *     Enable / Diable PCU Interrupt
  *     Enable / Diable WTO Interrupt 
  *     Enable / Diable QDC Interrupt
  *     Enable / Diable QPE Interrupt
  *     Enable / Diable PCE Interrupt
  */  
  eqepREG2->QEINT    = (uint16)((uint16)((uint16)0U << 11U)
					   | (uint16)((uint16)0U << 10U)
					   | (uint16)((uint16)0U << 9U)
					   | (uint16)((uint16)0U << 8U)
					   | (uint16)((uint16)0U << 7U)
					   | (uint16)((uint16)0U << 6U)
					   | (uint16)((uint16)0U << 5U)
					   | (uint16)((uint16)0U << 4U)
					   | (uint16)((uint16)0U << 3U)
					   | (uint16)((uint16)0U << 2U)
					   | (uint16)((uint16)0U << 1U));

  /** - Clear Capture Timer register  */
  eqepREG2->QCTMR    = (uint16)0x0000U;	

  /** - Clear the Capture Period regiter */  
  eqepREG2->QCPRD    = (uint16)0x0000U;	
  
  /** - Clear Period Latch register */					   
  eqepREG2->QCPRDLAT = (uint16)0x0000U;
  
/* USER CODE BEGIN (7) */
/* USER CODE END */

  
}

/** @brief Clears all QEP interrupt flags
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_002 */
/* DesignId : EQEP_DesignId_002 */
/* Requirements : HL_CONQ_QEP_SR2 */
void eqepClearAllInterruptFlags (eqepBASE_t *eqep)
{
  
  eqep->QCLR = 0xfffU;
  
  return;	
} /*end of eQEP_clear_all_interrupt_flags() function */

/** @brief Clears a single interrupt flag
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEINT			Interrupt flag
*/
/* SourceId : EQEP_SourceId_003 */
/* DesignId : EQEP_DesignId_003 */
/* Requirements : HL_CONQ_QEP_SR3 */
void eqepClearInterruptFlag (eqepBASE_t *eqep, QEINT_t QEINT_type)
{
  
  eqep->QCLR |= (uint16)QEINT_type;
  
  return;	
} /*end of eQEP_clear_interrupt_flag() function */

/** @brief Clears the position counter
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_004 */
/* DesignId : EQEP_DesignId_004 */
/* Requirements : HL_CONQ_QEP_SR4 */
void eqepClearPosnCounter (eqepBASE_t *eqep)
{
  
  eqep->QPOSCNT = 0U;	
  
  return;
} /*end of eQEP_clear_posn_counter() function */

/** @brief Disables all interrupts
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_005 */
/* DesignId : EQEP_DesignId_005 */
/* Requirements : HL_CONQ_QEP_SR5 */
void eqepDisableAllInterrupts (eqepBASE_t *eqep)
{
  
  eqep->QEINT = 0U;
  
  return;
} /*end of eQEP_disable_all_interrupts () function */

/** @brief Disable capture
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_006 */
/* DesignId : EQEP_DesignId_006 */
/* Requirements : HL_CONQ_QEP_SR6 */
void eqepDisableCapture (eqepBASE_t *eqep)
{
  
  eqep->QCAPCTL &= (uint16)~eQEP_QCAPCTL_CEN;
  
  return;	
} /*end of eQEP_disable_capture () function */

/** @brief Disable gating of index pulse
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_007 */
/* DesignId : EQEP_DesignId_007 */
/* Requirements : HL_CONQ_QEP_SR7 */
void eqepDisableGateIndex (eqepBASE_t *eqep)
{
  
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_IGATE;	
  
  return;
} /*end of eQEP_disable_gate_index () function */

/** @brief Disable individual interrupt
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEINT			Individual interrupts
*/
/* SourceId : EQEP_SourceId_008 */
/* DesignId : EQEP_DesignId_008 */
/* Requirements : HL_CONQ_QEP_SR8 */
void eqepDisableInterrupt (eqepBASE_t *eqep, QEINT_t QEINT_type)
{
  
  eqep->QEINT &= (uint16)~(uint16)QEINT_type;
  
  return;
} /*end of eQEP_disable_interrupt */

/** @brief Disable position compare
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_009 */
/* DesignId : EQEP_DesignId_009 */
/* Requirements : HL_CONQ_QEP_SR9 */
void eqepDisablePosnCompare (eqepBASE_t *eqep)
{
  
  eqep->QPOSCTL &= (uint16)~eQEP_QPOSCTL_PCE;
  
  return;	
} /*end of eQEP_disable_posn_compare () function */

/** @brief Disable position compare shadowing
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_010 */
/* DesignId : EQEP_DesignId_010 */
/* Requirements : HL_CONQ_QEP_SR10 */
void eqepDisablePosnCompareShadow (eqepBASE_t *eqep)
{
  
  eqep->QPOSCTL &= (uint16)~eQEP_QPOSCTL_PCSHDW;
  
  return;	
} /*end of eQEP_disable_posn_compare_shadow () function */

/** @brief Disable output sync pulse
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_011 */
/* DesignId : EQEP_DesignId_011 */
/* Requirements : HL_CONQ_QEP_SR11 */
void eqepDisableSyncOut (eqepBASE_t *eqep)
{
  
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_SOEN;
  
  return;
} /*end of eQEP_disable_sync_out () function */

/** @brief Disable unit timer
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_012 */
/* DesignId : EQEP_DesignId_012 */
/* Requirements : HL_CONQ_QEP_SR12 */
void eqepDisableUnitTimer (eqepBASE_t *eqep)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_UTE;
  
  return; 	
} /*end of eQEP_disable_unit_timer () function */

/** @brief Disable watchdog timer
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_013 */
/* DesignId : EQEP_DesignId_013 */
/* Requirements : HL_CONQ_QEP_SR13 */
void eqepDisableWatchdog (eqepBASE_t *eqep)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_WDE; 	
  
  return;
} /*end of eQEP_disable_watchdog () function */

/** @brief Enable capture
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_014 */
/* DesignId : EQEP_DesignId_014 */
/* Requirements : HL_CONQ_QEP_SR14 */
void eqepEnableCapture (eqepBASE_t *eqep)
{
  
  eqep->QCAPCTL |= eQEP_QCAPCTL_CEN;	
  
  return;
} /*end of eQEP_enable_capture () function */

/** @brief Enable counter
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_015 */
/* DesignId : EQEP_DesignId_015 */
/* Requirements : HL_CONQ_QEP_SR15 */
void eqepEnableCounter (eqepBASE_t *eqep)
{
  
  eqep->QEPCTL |= eQEP_QEPCTL_QPEN;	
  
  return;
} /*end of eQEP_enable_counter () function */

/** @brief Enable gating of index pulse
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_016 */
/* DesignId : EQEP_DesignId_016 */
/* Requirements : HL_CONQ_QEP_SR16 */
void eqepEnableGateIndex (eqepBASE_t *eqep)
{
  
  eqep->QDECCTL |= (uint16)eQEP_Igate_Enable;	
  
  return;
} /*end of eQEP_enable_gate_index () function */

/** @brief Enable individual interrupt
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEINT_type			Individual interrupts
*/
/* SourceId : EQEP_SourceId_017 */
/* DesignId : EQEP_DesignId_017 */
/* Requirements : HL_CONQ_QEP_SR17 */
void eqepEnableInterrupt (eqepBASE_t *eqep, QEINT_t QEINT_type)
{
  
  eqep->QEINT |= (uint16)QEINT_type;	
  
  return;
} /*end of eQEP_enable_interrupt () function */

/** @brief Enable position compare
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_018 */
/* DesignId : EQEP_DesignId_018 */
/* Requirements : HL_CONQ_QEP_SR18 */
void eqepEnablePosnCompare (eqepBASE_t *eqep)
{
  
  eqep->QPOSCTL |= eQEP_QPOSCTL_PCE;	
  
  return;
} /*end of eQEP_enable_posn_compare () function */

/** @brief Enable position compare shadowing
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_019 */
/* DesignId : EQEP_DesignId_019 */
/* Requirements : HL_CONQ_QEP_SR19 */
void eqepEnablePosnCompareShadow (eqepBASE_t *eqep)
{
  
  eqep->QPOSCTL |= eQEP_QPOSCTL_PCSHDW;	
  
  return;
} /*end of eQEP_enable_posn_compare_shadow () function */

/** @brief Enable output sync pulse
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_020 */
/* DesignId : EQEP_DesignId_020 */
/* Requirements : HL_CONQ_QEP_SR46 */
void eqepEnableSyncOut (eqepBASE_t *eqep)
{
  
  eqep->QDECCTL |= eQEP_QDECCTL_SOEN;
  
  return;
} /*end of eQEP_enable_sync_out () function */

/** @brief Enable unit timer
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_021 */
/* DesignId : EQEP_DesignId_021 */
/* Requirements : HL_CONQ_QEP_SR20 */
void eqepEnableUnitTimer (eqepBASE_t *eqep)
{
  
  eqep->QEPCTL |= eQEP_QEPCTL_UTE;
  
  return; 	
} /*end of eQEP_enable_unit_timer () function */

/** @brief Enable watchdog timer
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_022 */
/* DesignId : EQEP_DesignId_022 */
/* Requirements : HL_CONQ_QEP_SR21 */
void eqepEnableWatchdog (eqepBASE_t *eqep)
{
  
  eqep->QEPCTL |= eQEP_QEPCTL_WDE; 	
  
  return;
} /*end of eQEP_enable_watchdog () function */

/** @brief Manually force QEP interrupt
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEINT			Individual interrupt
*/
/* SourceId : EQEP_SourceId_023 */
/* DesignId : EQEP_DesignId_023 */
/* Requirements : HL_CONQ_QEP_SR22 */
void eqepForceInterrupt (eqepBASE_t *eqep, QEINT_t QEINT_type)
{
  
  eqep->QFRC |= (uint16)QEINT_type;
  
  return;	
} /*end of eQEP_force_interrupt () function */


/** @brief Reads capture period latch
*   @param[in] eqep		Handle to QEP object
*   @return						Counter value
*/
/* SourceId : EQEP_SourceId_024 */
/* DesignId : EQEP_DesignId_024 */
/* Requirements : HL_CONQ_QEP_SR23 */
uint16 eqepReadCapturePeriodLatch (eqepBASE_t *eqep)
{
  return eqep->QCPRDLAT;	
} /*end of eQEP_read_capture_period_latch () function */

/** @brief Reads timer latch
*   @param[in] eqep		Handle to QEP object
*   @return						Timer value
*/
/* SourceId : EQEP_SourceId_025 */
/* DesignId : EQEP_DesignId_025 */
/* Requirements : HL_CONQ_QEP_SR24 */
uint16 eqepReadCaptureTimerLatch (eqepBASE_t *eqep)
{
  return eqep->QCTMRLAT;	
} /*end of eQEP_read_capture_timer_latch () function */

/** @brief Reads interrupt flag value
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEINT			Which interrupt to interrogate
*   @return						Interrupt flag value
*/
/* SourceId : EQEP_SourceId_064 */
/* DesignId : EQEP_DesignId_064 */
/* Requirements : HL_CONQ_QEP_SR25 */
uint16 eqepReadInterruptFlag (eqepBASE_t *eqep, QEINT_t QEINT_type)
{
	return (uint16) (eqep->QFLG & (uint16)QEINT_type); 
} /*end of eQEP_read_interrupt_flag () function */

/** @brief Reads position compare register
*   @param[in] eqep		Handle to QEP object
*   @return						Counter value
*/
/* SourceId : EQEP_SourceId_026 */
/* DesignId : EQEP_DesignId_026 */
/* Requirements : HL_CONQ_QEP_SR26 */
uint32 eqepReadPosnCompare (eqepBASE_t *eqep)
{
  
  return eqep->QPOSCMP;	
} /*end of eQEP_read_posn_compare () function */

/** @brief Reads position counter
*   @param[in] eqep		Handle to QEP object
*   @return						Counter value
*/
/* SourceId : EQEP_SourceId_027 */
/* DesignId : EQEP_DesignId_027 */
/* Requirements : HL_CONQ_QEP_SR27 */
uint32 eqepReadPosnCount (eqepBASE_t *eqep)
{
  
  return eqep->QPOSCNT;	
} /*end of eQEP_read_posn_count () function */

/** @brief Reads position counter value index pulse latch register
*   @param[in] eqep		Handle to QEP object
*   @return						Counter value
*/
/* SourceId : EQEP_SourceId_028 */
/* DesignId : EQEP_DesignId_028 */
/* Requirements : HL_CONQ_QEP_SR28 */
uint32 eqepReadPosnIndexLatch (eqepBASE_t *eqep)
{
  
  return eqep->QPOSILAT;	
} /*end of eQEP_read_posn_index_latch () function */

/** @brief Reads position counter value
*   @param[in] eqep		Handle to QEP object
*   @return						Counter value
*/
/* SourceId : EQEP_SourceId_029 */
/* DesignId : EQEP_DesignId_029 */
/* Requirements : HL_CONQ_QEP_SR29 */
uint32 eqepReadPosnLatch (eqepBASE_t *eqep)
{
  
  return eqep->QPOSLAT;	
} /*end of eQEP_read_posn_latch () function */

/** @brief Reads position strobe latch
*   @param[in] eqep		Handle to QEP object
*   @return						Counter value
*/
/* SourceId : EQEP_SourceId_030 */
/* DesignId : EQEP_DesignId_030 */
/* Requirements : HL_CONQ_QEP_SR30 */
uint32 eqepReadPosnStrobeLatch (eqepBASE_t *eqep)
{
  
  return eqep->QPOSSLAT;	
} /*end of eQEP_read_posn_strobe_latch () function */

/** @brief Reads status register
*   @param[in] eqep		Handle to QEP object
*   @return						Status register value
*/
/* SourceId : EQEP_SourceId_031 */
/* DesignId : EQEP_DesignId_031 */
/* Requirements : HL_CONQ_QEP_SR31 */
uint16 eqepReadStatus (eqepBASE_t *eqep)
{
  
  return eqep->QEPSTS;	
} /*end of eqepReadStatus () function */

/** @brief Resets counter
*   @param[in] eqep		Handle to QEP object
*/
/* SourceId : EQEP_SourceId_032 */
/* DesignId : EQEP_DesignId_032 */
/* Requirements : HL_CONQ_QEP_SR32 */
void eqepResetCounter (eqepBASE_t *eqep)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_QPEN;
  
  return;	
} /*end of eqepResetCounter () function */

/** @brief Sets capture latch mode
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEPCTL_Qclm		capture latch mode
*/
/* SourceId : EQEP_SourceId_033 */
/* DesignId : EQEP_DesignId_033 */
/* Requirements : HL_CONQ_QEP_SR33 */
void eqepSetCaptureLatchMode (eqepBASE_t *eqep, QEPCTL_Qclm_t QEPCTL_Qclm)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_QCLM;
  eqep->QEPCTL |= QEPCTL_Qclm;
  
  return;
} /*end of eqepSetCaptureLatchMode () function */

/** @brief Sets capture period
*   @param[in] eqep		Handle to QEP object
*   @param[in] period			Capture period
*/
/* SourceId : EQEP_SourceId_034 */
/* DesignId : EQEP_DesignId_034 */
/* Requirements : HL_CONQ_QEP_SR34 */
void eqepSetCapturePeriod (eqepBASE_t *eqep, uint16 period)
{
  
  eqep->QCPRD = period;	
  
  return;
} /*end of eqepSetCapturePeriod () function */

/** @brief Sets capture pre-scaler
*   @param[in] eqep		Handle to QEP object
*   @param[in] QCAPCTL_Ccps		Capture pre-scaler 
*/
/* SourceId : EQEP_SourceId_035 */
/* DesignId : EQEP_DesignId_035 */
/* Requirements : HL_CONQ_QEP_SR35 */
void eqepSetCapturePrescale (eqepBASE_t *eqep, QCAPCTL_Ccps_t QCAPCTL_Ccps)
{
  
  eqep->QCAPCTL &= (uint16)~eQEP_QCAPCTL_CCPS;
  eqep->QCAPCTL |= QCAPCTL_Ccps;
} /*end of eqepSetCapturePrescale () function */

/** @brief Sets emulation control
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEPCTL_Freesoft	Emulation control bits
*/
/* SourceId : EQEP_SourceId_036 */
/* DesignId : EQEP_DesignId_036 */
/* Requirements : HL_CONQ_QEP_SR36 */
void eqepSetEmuControl (eqepBASE_t *eqep, QEPCTL_Freesoft_t QEPCTL_Freesoft)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_FREESOFT;
  eqep->QEPCTL |= QEPCTL_Freesoft; 	
  
  return;
} /*end of eqepSetEmuControl () function */

/** @brief Sets external clock rate
*   @param[in] eqep		Handle to QEP object
*   @param[in] eQEP_Xcr			External clock rate
*/
/* SourceId : EQEP_SourceId_037 */
/* DesignId : EQEP_DesignId_037 */
/* Requirements : HL_CONQ_QEP_SR37 */
void eqepSetExtClockRate (eqepBASE_t *eqep, eQEP_Xcr_t eQEP_Xcr)
{
  
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_XCR;
  eqep->QDECCTL |= (uint16)eQEP_Xcr;	
  
  return;
} /*end of eqepSetExtClockRate () function */

/** @brief Sets the event which initializes the counter register
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEPCTL_Iei		Index event
*/
/* SourceId : EQEP_SourceId_038 */
/* DesignId : EQEP_DesignId_038 */
/* Requirements : HL_CONQ_QEP_SR38 */
void eqepSetIndexEventInit (eqepBASE_t *eqep, QEPCTL_Iei_t QEPCTL_Iei)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_IEI;
  eqep->QEPCTL |= (uint16)QEPCTL_Iei;
  
  return;	
} /*end of eqepSetIndexEventInit () function */

/** @brief Sets the index event which latches the position counter 
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEPCTL_Iel		Latch event
*/
/* SourceId : EQEP_SourceId_039 */
/* DesignId : EQEP_DesignId_039 */
/* Requirements : HL_CONQ_QEP_SR39 */
void eqepSetIndexEventLatch (eqepBASE_t *eqep, QEPCTL_Iel_t QEPCTL_Iel)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_IEL;
  eqep->QEPCTL |= QEPCTL_Iel;
  
  return;
} /*end of eqepSetIndexEventLatch */

/** @brief Sets index polarity
*   @param[in] eqep		Handle to QEP object
*   @param[in] eQEP_Qip			Index polarity
*/
/* SourceId : EQEP_SourceId_040 */
/* DesignId : EQEP_DesignId_040 */
/* Requirements : HL_CONQ_QEP_SR40 */
void eqepSetIndexPolarity (eqepBASE_t *eqep, eQEP_Qip_t eQEP_Qip)
{
  
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_QIP;
  eqep->QDECCTL |= eQEP_Qip;
  
  return;
} /*end of eqepSetIndexPolarity () function */

/** @brief Sets max position count
*   @param[in] eqep		Handle to QEP object
*   @param[in] max_count		Maximum counter value
*/
/* SourceId : EQEP_SourceId_041 */
/* DesignId : EQEP_DesignId_041 */
/* Requirements : HL_CONQ_QEP_SR41 */
void eqepSetMaxPosnCount (eqepBASE_t *eqep, uint32 max_count)
{
  
  eqep->QPOSMAX = max_count;	
  
  return;
} /*end of eqepSetMaxPosnCount () function */

/** @brief Sets output pulse width when a match occur
*   @param[in] eqep		Handle to QEP object
*   @param[in] pulse_width		Pulse width value
*/
/* SourceId : EQEP_SourceId_042 */
/* DesignId : EQEP_DesignId_042 */
/* Requirements : HL_CONQ_QEP_SR42 */
void eqepSetPosnComparePulseWidth (eqepBASE_t *eqep, uint16 pulse_width)
{
  
  uint16 pulse_width_masked;

  pulse_width_masked = pulse_width & 4095U;
  eqep->QPOSCTL &= (uint16)~eQEP_QPOSCTL_PCSPW;
  eqep->QPOSCTL |= pulse_width_masked;
  
  return;
} /*end of eqepSetPosnComparePulseWidth () function */

/** @brief Sets position compare shadow load mode
*   @param[in] eqep		Handle to QEP object
*   @param[in] QPOSCTL_Pcload	PC load event	
*/
/* SourceId : EQEP_SourceId_043 */
/* DesignId : EQEP_DesignId_043 */
/* Requirements : HL_CONQ_QEP_SR43 */
void eqepSetPosnCompareShadowLoad (eqepBASE_t *eqep, QPOSCTL_Pcload_t QPOSCTL_Pcload)
{
  
  eqep->QPOSCTL &= (uint16)~eQEP_QPOSCTL_PCLOAD;
  eqep->QPOSCTL |= (uint16)QPOSCTL_Pcload;
  
  return;
} /*end of eqepSetPosnCompareShadowLoad () function */

/** @brief Sets position counter reset mode
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEPCTL_Pcrm		Position counter reset mode
*/
/* SourceId : EQEP_SourceId_044 */
/* DesignId : EQEP_DesignId_044 */
/* Requirements : HL_CONQ_QEP_SR44 */
void eqepSetPosnCountResetMode (eqepBASE_t *eqep, QEPCTL_Pcrm_t QEPCTL_Pcrm)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_PCRM;
  eqep->QEPCTL |= (uint16)QEPCTL_Pcrm;
  
  return; 	
} /*end of eqepSetPosnCountResetMode () function */

/** @brief Sets initial position counter value
*   @param[in] eqep		Handle to QEP object
*   @param[in] init_count		initial counter value
*/
/* SourceId : EQEP_SourceId_045 */
/* DesignId : EQEP_DesignId_045 */
/* Requirements : HL_CONQ_QEP_SR45 */
void eqepSetPosnInitCount (eqepBASE_t *eqep, uint32 init_count)
{
  
  eqep->QPOSINIT = init_count;
  
  return;
} /*end of eqepSetPosnInitCount () function */

/** @brief Selects whether index or strobe pin is used for sync output
*   @param[in] eqep		Handle to QEP object
*   @param[in] eQEP_SPsel		Selected pin
*/
/* SourceId : EQEP_SourceId_046 */
/* DesignId : EQEP_DesignId_046 */
/* Requirements : HL_CONQ_QEP_SR47 */
void eqepSetSelectSyncPin (eqepBASE_t *eqep, eQEP_Spsel_t eQEP_SPsel)
{
  
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_SPSEL;
  eqep->QDECCTL |= (uint16)eQEP_SPsel;
  
  return;
} /*end of eQEP_set_select_sync_pin () function */

/** @brief Determines if software initialization of position counter enabled 
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEPCTL_Swi		Enable/disable position counter initialization
*/
/* SourceId : EQEP_SourceId_047 */
/* DesignId : EQEP_DesignId_047 */
/* Requirements : HL_CONQ_QEP_SR48 */
void eqepSetSoftInit (eqepBASE_t *eqep, QEPCTL_Swi_t QEPCTL_Swi)
{

  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_SWI;
  eqep->QEPCTL |= (uint16)QEPCTL_Swi;
  
  return;
} /*end of eQEP_set_soft_init () function */

/** @brief Determines strobe initialization of position counter 
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEPCTL_Sei		Strobe initialization of position counter (disabled, rising edge of QEPI) or rising/falling depending on direction
*/
/* SourceId : EQEP_SourceId_048 */
/* DesignId : EQEP_DesignId_048 */
/* Requirements : HL_CONQ_QEP_SR49 */
void eqepSetStrobeEventInit (eqepBASE_t *eqep, QEPCTL_Sei_t QEPCTL_Sei)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_SEI;
  eqep->QEPCTL |= (uint16)QEPCTL_Sei;
  
  return;
} /*end of eQEP_set_strobe_event_init () function */

/** @brief Sets up strobe latch of position counter 
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEPCTL_Sel		Sets strobe latch of position counter
*/
/* SourceId : EQEP_SourceId_049 */
/* DesignId : EQEP_DesignId_049 */
/* Requirements : HL_CONQ_QEP_SR50 */
void eqepSetStrobeEventLatch (eqepBASE_t *eqep, QEPCTL_Sel_t QEPCTL_Sel)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_SEL;
  eqep->QEPCTL |= QEPCTL_Sel;
  
  return;	
} /*end of eQEP_set_strobe_event_latch () function */

/** @brief Sets up strobe polarity 
*   @param[in] eqep		Handle to QEP object
*   @param[in] eQEP_Qsp			Strobe polarity
*/
/* SourceId : EQEP_SourceId_050 */
/* DesignId : EQEP_DesignId_050 */
/* Requirements : HL_CONQ_QEP_SR51 */
void eqepSetStrobePolarity (eqepBASE_t *eqep, eQEP_Qsp_t eQEP_Qsp)
{
  
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_QSP;
  eqep->QDECCTL |= eQEP_Qsp;
  
  return;
} /*end of eqepSetStrobePolarity () function */

/** @brief Sets up swapping of A/B channels
*   @param[in] eqep		Handle to QEP object
*   @param[in] eQEP_Swap			Swap/don't swap A/B channels
*/
/* SourceId : EQEP_SourceId_051 */
/* DesignId : EQEP_DesignId_051 */
/* Requirements : HL_CONQ_QEP_SR52 */
void eqepSetSwapQuadInputs (eqepBASE_t *eqep, eQEP_Swap_t eQEP_Swap)
{
  
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_SWAP;
  eqep->QDECCTL |= (uint16)eQEP_Swap;
  
  return;
} /*end of eqepSetSwapQuadInputs () function */

/** @brief Sets sync output compare polarity
*   @param[in] eqep		Handle to QEP object
*   @param[in] QPOSCTL_Pcpol	Polarity of sync output
*/
/* SourceId : EQEP_SourceId_052 */
/* DesignId : EQEP_DesignId_052 */
/* Requirements : HL_CONQ_QEP_SR53 */
void eqepSetSynchOutputComparePolarity (eqepBASE_t *eqep, QPOSCTL_Pcpol_t QPOSCTL_Pcpol)
{
  
  eqep->QPOSCTL &= (uint16)~eQEP_QPOSCTL_PCPOL;
  eqep->QPOSCTL |= (uint16)QPOSCTL_Pcpol;
  
  return;
} /*end of eqepSetSynchOutputComparePolarity () function */

/** @brief Sets unit timer period
*   @param[in] eqep		Handle to QEP object
*   @param[in] unit_period		Unit period
*/
/* SourceId : EQEP_SourceId_053 */
/* DesignId : EQEP_DesignId_053 */
/* Requirements : HL_CONQ_QEP_SR54 */
void eqepSetUnitPeriod (eqepBASE_t *eqep, uint32 unit_period)
{
  
  eqep->QUPRD = unit_period;
  
  return;	
} /*end of eqepSetUnitPeriod () function */

/** @brief Sets unit timer prescaling
*   @param[in] eqep		Handle to QEP object
*   @param[in] QCAPCTL_Upps		Unit timer prescaling
*/
/* SourceId : EQEP_SourceId_054 */
/* DesignId : EQEP_DesignId_054 */
/* Requirements : HL_CONQ_QEP_SR55 */
void eqepSetUnitPosnPrescale (eqepBASE_t *eqep, QCAPCTL_Upps_t QCAPCTL_Upps)
{
  
  eqep->QCAPCTL &= (uint16)~eQEP_QCAPCTL_UPPS;
  eqep->QCAPCTL |= (uint16)QCAPCTL_Upps;
  
  return;
} /*end of eqepSetUnitPosnPrescale () function */

/** @brief Sets watchdog period
*   @param[in] eqep		Handle to QEP object
*   @param[in] watchdog_period	Watchdog period
*/
/* SourceId : EQEP_SourceId_055 */
/* DesignId : EQEP_DesignId_055 */
/* Requirements : HL_CONQ_QEP_SR56 */
void eqepSetWatchdogPeriod (eqepBASE_t *eqep, uint16 watchdog_period)
{
  
  eqep->QWDPRD = watchdog_period;
  
  return;	
} /*end of eqepSetWatchdogPeriod () function */

/** @brief Sets strobe event latch
*   @param[in] eqep		Handle to QEP object
*   @param[in] QEPCTL_Sel	Sets strobe latch of position counter
*/
/* SourceId : EQEP_SourceId_056 */
/* DesignId : EQEP_DesignId_056 */
/* Requirements : HL_CONQ_QEP_SR57 */
void eqepSetupStrobeEventLatch (eqepBASE_t *eqep, QEPCTL_Sel_t QEPCTL_Sel)
{
  
  eqep->QEPCTL &= (uint16)~eQEP_QEPCTL_SEL;
  eqep->QEPCTL |= (uint16)QEPCTL_Sel;
  
  return;
} /*end of eqepSetupStrobeEventLatch () function */

/** @brief Sets A polarity
*   @param[in] eqep		Handle to QEP object
*   @param[in] eQEP_Qap			Channel A polarity
*/
/* SourceId : EQEP_SourceId_057 */
/* DesignId : EQEP_DesignId_057 */
/* Requirements : HL_CONQ_QEP_SR58 */
void eqepSetAPolarity (eqepBASE_t *eqep, eQEP_Qap_t eQEP_Qap)
{
  
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_QAP;
  eqep->QDECCTL |= (uint16)eQEP_Qap;
  
  return;
} /*end of eqepSetAPolarity () function */

/** @brief Sets B polarity
*   @param[in] eqep		Handle to QEP object
*   @param[in] eQEP_Qbp			Channel B polarity
*/
/* SourceId : EQEP_SourceId_058 */
/* DesignId : EQEP_DesignId_058 */
/* Requirements : HL_CONQ_QEP_SR59 */
void eqepSetBPolarity (eqepBASE_t *eqep, eQEP_Qbp_t eQEP_Qbp)
{
  
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_QBP;
  eqep->QDECCTL |= (uint16)eQEP_Qbp;
  
  return;
} /*end of eQEP_set_B_polarity () function */

/** @brief Set QEP counting mode
*   @param[in] eqep		Handle to QEP object
*   @param[in] eQEP_Qsrc Sets QEP counting mode	
*/
/* SourceId : EQEP_SourceId_059 */
/* DesignId : EQEP_DesignId_059 */
/* Requirements : HL_CONQ_QEP_SR60 */
void eqepSetQEPSource (eqepBASE_t *eqep, eQEP_Qsrc_t eQEP_Qsrc)
{
    
  /* set the value */
  eqep->QDECCTL &= (uint16)~eQEP_QDECCTL_QSRC;
  eqep->QDECCTL |= (uint16)eQEP_Qsrc;
  
  return;
} /*end of eQEP_set_eQEP_source () function */

/** @brief Writes a value to the position compare register
*   @param[in] eqep		Handle to QEP object
*   @param[in] posn				Position compare register value
*/
/* SourceId : EQEP_SourceId_060 */
/* DesignId : EQEP_DesignId_060 */
/* Requirements : HL_CONQ_QEP_SR61 */
void eqepWritePosnCompare (eqepBASE_t *eqep, uint32 posn)
{
  
  eqep->QPOSCMP = posn;
  
  return;
} /*end of eQEP_write_posn_compare () function */

/** @fn void eqep1GetConfigValue(eqep_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the configuration registers
*
*    @param[in] *config_reg: pointer to the struct to which the initial or current
*                           value of the configuration registers need to be stored
*    @param[in] type:     whether initial or current value of the configuration registers need to be stored
*                        - InitialValue: initial value of the configuration registers will be stored
*                                       in the struct pointed by config_reg
*                        - CurrentValue: initial value of the configuration registers will be stored
*                                       in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type')
*   of the configuration registers to the struct pointed by config_reg
*
*/
/* SourceId : EQEP_SourceId_061 */
/* DesignId : EQEP_DesignId_061 */
/* Requirements : HL_CONQ_QEP_SR64 */
void eqep1GetConfigValue(eqep_config_reg_t *config_reg, config_value_type_t type)
{
    if (type == InitialValue)
    {
        config_reg->CONFIG_QPOSINIT		= EQEP1_QPOSINIT_CONFIGVALUE;
        config_reg->CONFIG_QPOSMAX		= EQEP1_QPOSMAX_CONFIGVALUE;
        config_reg->CONFIG_QPOSCMP      = EQEP1_QPOSCMP_CONFIGVALUE;
        config_reg->CONFIG_QUPRD      	= EQEP1_QUPRD_CONFIGVALUE;
        config_reg->CONFIG_QWDPRD      	= EQEP1_QWDPRD_CONFIGVALUE;
        config_reg->CONFIG_QDECCTL      = EQEP1_QDECCTL_CONFIGVALUE;
        config_reg->CONFIG_QEPCTL      	= EQEP1_QEPCTL_CONFIGVALUE;
        config_reg->CONFIG_QCAPCTL      = EQEP1_QCAPCTL_CONFIGVALUE;
        config_reg->CONFIG_QPOSCTL      = EQEP1_QPOSCTL_CONFIGVALUE;
        config_reg->CONFIG_QEINT       	= EQEP1_QEINT_CONFIGVALUE;
    }
    else
    {
    /*SAFETYMCUSW 134 S MR:12.2 <APPROVED> "LDRA Tool issue" */
        config_reg->CONFIG_QPOSINIT		= eqepREG1->QPOSINIT;
        config_reg->CONFIG_QPOSMAX		= eqepREG1->QPOSMAX;
        config_reg->CONFIG_QPOSCMP      = eqepREG1->QPOSCMP;
        config_reg->CONFIG_QUPRD      	= eqepREG1->QUPRD;
        config_reg->CONFIG_QWDPRD      	= eqepREG1->QWDPRD;
        config_reg->CONFIG_QDECCTL      = eqepREG1->QDECCTL;
        config_reg->CONFIG_QEPCTL      	= eqepREG1->QEPCTL;
        config_reg->CONFIG_QCAPCTL      = eqepREG1->QCAPCTL;
        config_reg->CONFIG_QPOSCTL      = eqepREG1->QPOSCTL;
        config_reg->CONFIG_QEINT       	= eqepREG1->QEINT;
    }
}

/** @fn void eqep2GetConfigValue(eqep_config_reg_t *config_reg, config_value_type_t type)
*   @brief Get the initial or current values of the configuration registers
*
*    @param[in] *config_reg: pointer to the struct to which the initial or current
*                           value of the configuration registers need to be stored
*    @param[in] type:     whether initial or current value of the configuration registers need to be stored
*                        - InitialValue: initial value of the configuration registers will be stored
*                                       in the struct pointed by config_reg
*                        - CurrentValue: initial value of the configuration registers will be stored
*                                       in the struct pointed by config_reg
*
*   This function will copy the initial or current value (depending on the parameter 'type')
*   of the configuration registers to the struct pointed by config_reg
*
*/
/* SourceId : EQEP_SourceId_062 */
/* DesignId : EQEP_DesignId_062 */
/* Requirements : HL_CONQ_QEP_SR65 */
void eqep2GetConfigValue(eqep_config_reg_t *config_reg, config_value_type_t type)
{
    if (type == InitialValue)
    {
        config_reg->CONFIG_QPOSINIT		= EQEP2_QPOSINIT_CONFIGVALUE;
        config_reg->CONFIG_QPOSMAX		= EQEP2_QPOSMAX_CONFIGVALUE;
        config_reg->CONFIG_QPOSCMP      = EQEP2_QPOSCMP_CONFIGVALUE;
        config_reg->CONFIG_QUPRD      	= EQEP2_QUPRD_CONFIGVALUE;
        config_reg->CONFIG_QWDPRD      	= EQEP2_QWDPRD_CONFIGVALUE;
        config_reg->CONFIG_QDECCTL      = EQEP2_QDECCTL_CONFIGVALUE;
        config_reg->CONFIG_QEPCTL      	= EQEP2_QEPCTL_CONFIGVALUE;
        config_reg->CONFIG_QCAPCTL      = EQEP2_QCAPCTL_CONFIGVALUE;
        config_reg->CONFIG_QPOSCTL      = EQEP2_QPOSCTL_CONFIGVALUE;
        config_reg->CONFIG_QEINT       	= EQEP2_QEINT_CONFIGVALUE;
    }
    else
    {
    /*SAFETYMCUSW 134 S MR:12.2 <APPROVED> "LDRA Tool issue" */
        config_reg->CONFIG_QPOSINIT		= eqepREG2->QPOSINIT;
        config_reg->CONFIG_QPOSMAX		= eqepREG2->QPOSMAX;
        config_reg->CONFIG_QPOSCMP      = eqepREG2->QPOSCMP;
        config_reg->CONFIG_QUPRD      	= eqepREG2->QUPRD;
        config_reg->CONFIG_QWDPRD      	= eqepREG2->QWDPRD;
        config_reg->CONFIG_QDECCTL      = eqepREG2->QDECCTL;
        config_reg->CONFIG_QEPCTL      	= eqepREG2->QEPCTL;
        config_reg->CONFIG_QCAPCTL      = eqepREG2->QCAPCTL;
        config_reg->CONFIG_QPOSCTL      = eqepREG2->QPOSCTL;
        config_reg->CONFIG_QEINT       	= eqepREG2->QEINT;
    }
}


/*end of file*/

